WO2010082462A1 - インクジェットプリンタおよびそれを用いた印刷方法 - Google Patents

インクジェットプリンタおよびそれを用いた印刷方法 Download PDF

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Publication number
WO2010082462A1
WO2010082462A1 PCT/JP2010/000047 JP2010000047W WO2010082462A1 WO 2010082462 A1 WO2010082462 A1 WO 2010082462A1 JP 2010000047 W JP2010000047 W JP 2010000047W WO 2010082462 A1 WO2010082462 A1 WO 2010082462A1
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WO
WIPO (PCT)
Prior art keywords
ultraviolet irradiation
intensity
ink
ultraviolet
irradiation means
Prior art date
Application number
PCT/JP2010/000047
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English (en)
French (fr)
Japanese (ja)
Inventor
古旗朝隆
菱田優子
Original Assignee
株式会社ミマキエンジニアリング
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by 株式会社ミマキエンジニアリング filed Critical 株式会社ミマキエンジニアリング
Priority to KR1020117006784A priority Critical patent/KR101271653B1/ko
Priority to EP10731133.4A priority patent/EP2325011B1/de
Priority to CN2010800028064A priority patent/CN102171042B/zh
Publication of WO2010082462A1 publication Critical patent/WO2010082462A1/ja
Priority to US13/075,192 priority patent/US8662655B2/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J2/00Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
    • B41J2/005Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
    • B41J2/01Ink jet
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J11/00Devices or arrangements  of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
    • B41J11/0015Devices or arrangements  of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form for treating before, during or after printing or for uniform coating or laminating the copy material before or after printing
    • B41J11/002Curing or drying the ink on the copy materials, e.g. by heating or irradiating
    • B41J11/0021Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation
    • B41J11/00214Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation using UV radiation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J2/00Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
    • B41J2/435Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by selective application of radiation to a printing material or impression-transfer material

Definitions

  • the present invention relates to an ink jet printer that performs printing by ejecting ink onto a print medium, and a printing method using the same.
  • UV ink ultraviolet curable ink
  • UV ink ultraviolet curable ink
  • an ink jet printer that performs printing using UV ink is equipped with an ultraviolet irradiation device for curing the UV ink attached to the print medium.
  • UVLED ultraviolet light emitting diode
  • FIG. 9A shows a conventional printing unit 500 mounted on an ink jet printer.
  • the printing unit 500 mainly includes a printer head 510 that discharges UV ink, a right ultraviolet irradiation device 520R, a left ultraviolet irradiation device 520L, and a carriage 530 on which these are mounted.
  • the right ultraviolet ray irradiation device 520R and the left ultraviolet ray irradiation device 520L have UVLEDs (not shown on the right) arranged therein so that ultraviolet rays can be emitted downward, and are arranged on both the left and right sides of the printer head 510. Is done.
  • UV ink is transferred from the printer head 510 while the carriage 530 is reciprocated left and right above the print line 508 (hereinafter, this reciprocation is referred to as “pass”).
  • this reciprocation is referred to as “pass”.
  • ultraviolet rays are emitted from the right ultraviolet ray irradiation device 520R and the left ultraviolet ray irradiation device 520L, and this ultraviolet ray is irradiated to the printing line 508, whereby the UV ink attached to the printing line 508 is cured and printing is performed. It is to be given.
  • FIG. 9B shows a cross-sectional view of the UV ink when the intensity of ultraviolet rays irradiated from the right ultraviolet irradiation device 520R and the left ultraviolet irradiation device 520L is relatively high.
  • the UV ink 512 was ejected and adhered in the current pass on the completely cured UV ink 511 that was completely cured by being irradiated with ultraviolet rays after being adhered in the previous pass. Indicates the state.
  • the UV ink 512 Since the UV ink 512 has poor affinity with the fully cured UV ink 511 (it is difficult to smooth), the UV ink 512 is cured by being irradiated with ultraviolet rays in a state where it swells and becomes almost wet and does not spread due to surface tension.
  • FIG. 9C shows a cross-sectional view of the UV ink when the intensity of ultraviolet rays irradiated from the right ultraviolet irradiation device 520R and the left ultraviolet irradiation device 520L is relatively low.
  • FIG. 9C shows a state in which the UV ink 514 is adhered on the uncured uncured UV ink 513 adhered in the previous pass in the current pass.
  • the uncured UV ink 513 and the UV ink 514 are mixed and spread due to their good affinity, and are cured by being irradiated with ultraviolet rays in this blurred state.
  • Patent Document 1 discloses that the recording medium 2 is landed by ultraviolet rays irradiated from the first light irradiation devices 17, 18, 19, and 20. A configuration is disclosed in which after the surface of the ink is cured, it is completely cured by ultraviolet rays from the second light irradiation device 21.
  • FIG. 1 of Patent Document 2 discloses an ink jet recording apparatus 1 provided with two light sources 19 and 20 having different illuminances.
  • each of the UV inks that overlaps and adheres to the surface of the print medium 501 is hardened in a state where it is spread and smoothed to some extent without being mixed and smeared, whereby a desired printed matter can be obtained.
  • FIG. 9B when cured in a state that is not sufficiently smoothed, the reflection of light on the surface of the printed material is different from that of the desired printed material. For example, the shade of the color is different. As a result, the print quality may be deteriorated.
  • FIG. 9C when the UV inks are mixed and spread in a blurred state, the color of the mixed part looks different from the desired printed matter, and the print quality is reduced. There was a risk of lowering.
  • the present invention has been made in view of the above problems, and provides an inkjet printer that can be cured in a state in which UV inks are adhered and smoothed so as not to bleed, and a printing method using the same. For the purpose.
  • an ink jet printer is opposed to medium support means (for example, the platen 12a in the embodiment) that supports a print medium (for example, the print sheet 1 in the embodiment), and A guide rail that is relatively moved in a predetermined transport direction with respect to the print medium supported by the medium support means and that extends in a scanning direction orthogonal to the predetermined transport direction, and the scan along the guide rail
  • medium support means for example, the platen 12a in the embodiment
  • a guide rail that is relatively moved in a predetermined transport direction with respect to the print medium supported by the medium support means and that extends in a scanning direction orthogonal to the predetermined transport direction, and the scan along the guide rail
  • a carriage that is reciprocally movable in a direction, a printer head that is mounted on the carriage and ejects ink toward the print medium, and an ultraviolet ray that is mounted on the carriage and irradiates the print medium from the printer head.
  • UV irradiation means for curing the ink ejected and adhered to the print medium (for example, in the embodiment)
  • a head unit for example, the printing unit 20 in the embodiment
  • the intensity control unit which controls the intensity of ultraviolet rays emitted from the ultraviolet irradiation unit
  • the controller 13b in the embodiment, the ultraviolet irradiation means is disposed on the carriage on the side in the scanning direction with respect to the printer head, and the intensity control means is configured to reciprocate the carriage. It is configured to control the intensity of the ultraviolet rays irradiated from the ultraviolet irradiation means in accordance with the moving direction.
  • the ultraviolet irradiation means is composed of one ultraviolet irradiation means disposed on one side in the scanning direction with respect to the printer head, and the other ultraviolet irradiation means disposed on the other side. It is preferable that the intensity control means independently controls the intensity of ultraviolet rays emitted from the one-side ultraviolet irradiation means and the other-side ultraviolet irradiation means.
  • the intensity control means includes a ratio of an irradiation intensity between the one-side ultraviolet irradiation means and the other-side ultraviolet irradiation means when the carriage is moved to the one side, and the carriage moves to the other side. It is preferable that the intensity of the ultraviolet light is controlled so that the ratio of the irradiation intensity of the other-side ultraviolet irradiation means and the one-side ultraviolet irradiation means when they are set to be substantially the same.
  • the ultraviolet irradiation means is configured to include an LED capable of irradiating ultraviolet rays, and the intensity control means controls the intensity of ultraviolet rays irradiated from the ultraviolet irradiation means by controlling a current value supplied to the LEDs. It is preferable to do.
  • the printing method according to the present invention ejects ink from the printer head toward a print medium while moving the printer head and the ultraviolet irradiation means along a guide rail extending in the scanning direction, and prints from the ultraviolet irradiation means.
  • a printing method using an ink jet printer that irradiates ultraviolet rays toward a medium, cures ink discharged from the printer head and adheres to the print medium, and performs printing, the printer head and the ultraviolet irradiation means A first step of ejecting ink from the printer head while moving to one side in the scanning direction and irradiating ultraviolet rays while controlling the intensity from the ultraviolet irradiation unit; and The first in the print medium while moving to the side To ultraviolet radiation is irradiated region in step, the ultraviolet rays of different intensities and irradiation intensity in the first step, and a second step of irradiating while intensity control from the ultraviolet light irradiation means.
  • the ink jet printer according to the present invention is configured such that the intensity of the ultraviolet rays irradiated from the ultraviolet irradiation means is controlled by the intensity control means in accordance with the reciprocating direction of the carriage. Therefore, when the ink adhering to the printing medium is cured by irradiating the ultraviolet rays from the ultraviolet irradiation means a plurality of times, it is possible to irradiate the ultraviolet rays having different intensity each time. For example, the ink is cured to the extent that it can be smoothed over time without being completely cured by the first ultraviolet irradiation, and the ink is smeared even if a new ink is deposited by the second irradiation.
  • the ultraviolet irradiation means preferably controls the intensity of ultraviolet rays independently for each of the one-side ultraviolet irradiation means and the other-side ultraviolet irradiation means disposed on both sides of the printer head.
  • the ultraviolet irradiation means preferably controls the intensity of ultraviolet rays independently for each of the one-side ultraviolet irradiation means and the other-side ultraviolet irradiation means disposed on both sides of the printer head.
  • by moving the head unit in one of the scanning directions it is possible to irradiate the ultraviolet rays having different intensities twice before and after the timing when the ink adheres. Therefore, for example, the timing of irradiating ultraviolet rays and the intensity of ultraviolet rays can be finely set according to the material of the print medium, the ink component characteristics, and the like. Therefore, it is possible to irradiate ultraviolet rays having the optimum intensity at the optimum timing, and it is possible to perform printing with higher quality by suppressing the occurrence of bleeding and curing in
  • the intensity control means controls the irradiation intensity ratio between the one-side ultraviolet irradiation means and the other-side ultraviolet irradiation means to be substantially the same according to the moving direction of the carriage.
  • the intensity control unit can perform control by alternately repeating two control patterns, for example, according to the moving direction of the carriage, and the control configuration of the intensity control unit can be simplified. it can.
  • the ultraviolet irradiation means includes an LED that can irradiate ultraviolet rays according to the supply current value.
  • the LED can immediately irradiate ultraviolet rays having an intensity corresponding to the supply current value by controlling the supply current value. Therefore, for example, even when the head unit is moved in the scanning direction at a relatively high speed, it is possible to cause the ink to be irradiated with ultraviolet rays having the intensity as controlled by changing the ultraviolet rays following the control by the intensity control means. Become.
  • the first step of ejecting ink from the printer head while moving to one side in the scanning direction and irradiating ultraviolet rays while controlling the intensity from the ultraviolet irradiation means A second region in which the region irradiated with ultraviolet rays from the ultraviolet irradiation means in the first step is irradiated with ultraviolet rays having intensity different from that in the first step while moving to the other opposite side. Steps.
  • the ink adhering to the print medium is cured by irradiating it with ultraviolet rays a plurality of times, for example, the ink is not cured completely by the first irradiation, but is cured to the extent that it can be smoothed over time,
  • the second irradiation the ink can be cured to such an extent that it does not bleed even when a new ink is layered thereon. Therefore, the ink can be cured in a sufficiently smoothed state while suppressing the occurrence of bleeding as a whole.
  • FIG. 1 is a front view of an ink jet printer according to the present invention. It is the perspective view which showed the printing unit periphery of the said inkjet printer.
  • 2 is a control system diagram of the ink jet printer.
  • FIG. 4A and 4B are views of the printing unit as viewed from above, where FIG. 5A shows the state of the first pass, and FIG. 5B shows the state of the second pass.
  • 4A and 4B are views of the printing unit as viewed from above, where FIG. 5A shows the state of the third pass, and FIG. 5B shows the state of the fourth pass.
  • the printing state at each intensity when printing is performed by variously changing the intensity of ultraviolet rays irradiated from the ultraviolet irradiation device is shown for each pass.
  • the printing state at each intensity when printing is performed by variously changing the intensity of ultraviolet rays irradiated from the ultraviolet irradiation device is shown for each pass.
  • (A) is the figure which looked at the conventional printing unit from upper direction
  • (b) is sectional drawing which showed the state which another UV ink adhered on the UV ink fully cured
  • FIGS. 1 is a front view of the inkjet printer 10
  • FIG. 2 is a perspective view of the periphery of a printing unit 20 described later
  • FIG. 3 is a control system diagram.
  • the inkjet printer 10 is provided on the left side of the support body 11 having left and right support legs 11 a and 11 b, the center body part 12 supported by the support legs 11, and the center body part 12.
  • the central body portion 12 is provided with a platen 12a that is exposed on the upper surface and extends to the left and right.
  • a plurality of clamping devices 15 a are attached to the lower portion of the upper body portion 15 side by side.
  • a pinch roller 15c is rotatably attached to the front end portion of the clamp device 15a.
  • a cylindrical feed roller 12b extending left and right is provided exposed to the platen 12a.
  • the feed roller 12b is a front / rear drive motor 12c disposed inside the central body portion 12. Is driven to rotate (see FIG. 1).
  • the clamp device 15a can be set to a clamp position where the pinch roller 15c is pressed against the feed roller 12b and an unclamp position where the pinch roller 15c is separated from the feed roller 12b. With this configuration, the long sheet-like print sheet 1 to be printed is sandwiched between the pinch roller 15c and the feed roller 12b, and the clamp device 15a is set at the clamp position, and then the front and rear drive motor 12c is driven. Thus, the print sheet 1 can be fed forward or backward by a desired distance.
  • an operation unit 13 a including operation switches and display devices is provided on the front side of the left body unit 13, and a controller 13 b is provided inside the left body unit 13. ing. As shown in FIG. 3, the controller 13b is electrically connected to the left / right drive motor 14a, the printer head 22, the left ultraviolet irradiation device 23L, the right ultraviolet irradiation device 23R, and the like described later, including the front / rear drive motor 12c. The operation control is performed by outputting an operation signal to them.
  • a guide rail 15b extending left and right is provided inside the upper body portion 15, and a printing unit 20 is attached to the left and right along the guide rail 15b.
  • the printing unit 20 is mainly composed of a carriage 21, a printer head 22, a left ultraviolet irradiation device 23L, and a right ultraviolet irradiation device 23R.
  • the carriage 21 is attached to the guide rail 15b so as to be movable left and right, and is reciprocated left and right along the guide rail 15b by a left and right drive motor 14a disposed in the right body portion 14.
  • the carriage 21 is a mounting base for the printer head 22, the left ultraviolet irradiation device 23L, and the right ultraviolet irradiation device 23R.
  • the printer head 22 includes, for example, magenta (M), yellow (Y), cyan (C), and black (K) printer heads 22M, 22Y, 22C, and 22K. Connected. A plurality of ejection nozzles (not shown) that eject UV ink downward are formed on the lower surfaces of the printer heads 22M, 22Y, 22C, and 22K.
  • M magenta
  • Y yellow
  • C cyan
  • K black
  • the left ultraviolet irradiation device 23L is disposed on the left side of the printer head 22 (22K).
  • a plurality of UVLED modules (not shown) including UVLED chips (not shown) capable of emitting ultraviolet rays having an intensity corresponding to the supply current value are arranged inside the left ultraviolet irradiation device 23L.
  • This UVLED chip has a characteristic such that the irradiation intensity increases in proportion to the supply current value, for example. With this configuration, the ultraviolet light emitted from the UVLED chip is irradiated below the left ultraviolet irradiation device 23L (printing sheet 1).
  • the controller 13b controls the intensity of the ultraviolet rays irradiated downward from the left ultraviolet ray irradiation device 23L by controlling the supply current value to the UVLED module (UVLED chip) disposed in the left ultraviolet ray irradiation device 23L. It is possible. When the supply current value to the UVLED chip is controlled and changed, the UVLED module can immediately irradiate ultraviolet rays having an intensity corresponding to the supply current value.
  • UVLED module UVLED chip
  • the controller 13b can control the intensity of ultraviolet rays independently for each of the left ultraviolet irradiation device 23L and the right ultraviolet irradiation device 23R.
  • the intensity control of the ultraviolet light can be performed by changing the supply current value steplessly.
  • the supply current value such as 30% or 50%
  • the right ultraviolet irradiation device 23R disposed on the right side of the printer head 22 (22M) has the same configuration as the left ultraviolet irradiation device 23L, and thus the description thereof is omitted here.
  • FIGS. 4 to 6 are views of the printing unit 20 as viewed from above, and FIG. 6 is a cross-sectional view of the state in which the UV ink is deposited on each pass.
  • the printing method described below exemplifies a case where printing is performed in four passes (when printing is performed by attaching UV ink four times). Further, the intensity of the ultraviolet rays irradiated from the left ultraviolet irradiation device 23L and the right ultraviolet irradiation device 23R by the controller 13b is set to the maximum intensity (about 100%) or half (about 50%) according to the moving direction of the carriage 21. The case where control is performed so that the strength is achieved will be described as an example.
  • the printing unit 20 is reciprocated left and right along the guide rail 15b with respect to the printing sheet 1 placed on the upper surface of the platen 12a.
  • UV ink is ejected from ejection nozzles formed on the lower surface of the head 22 and adhered to the print sheet 1 in a desired pattern.
  • ultraviolet rays are irradiated toward the printing sheet 1 from the right ultraviolet irradiation device 23R and the left ultraviolet irradiation device 23L, so that the UV ink attached to the printing sheet 1 is cured and printed. It has become.
  • the printing unit 20 is reciprocated left and right while ejecting 25% of the ink from the printer head 22, and the printer head 22 passes through the print sheet 1 a total of four times. Printing is performed with 100% ink attached to the ink. By doing so, it is possible to perform printing while suppressing the occurrence of bleeding. This printing method will be described below.
  • FIG. 4A shows a state in which the printing unit 20 is positioned to the left of the left end of the printing sheet 1, for example, in the middle of printing.
  • the right ultraviolet irradiation device 23R and the left ultraviolet irradiation device 23L have the front-rear width substantially the same as the front-rear width of the printer head 22, and are positioned on the left and right of the printer head 22. It is mounted on the carriage 21 in a state.
  • the print areas 1a to 1d in the print sheet 1 are in an unprinted (0%) state where UV ink is not adhered, one pass (25%) for the print area 1e, and two passes for the print area 1f ( 50%), 3 passes (75%) of UV ink is attached to the printing area 1g, and 4 passes (100%) of UV ink is attached to the printing area 1h.
  • the front-rear width of the print areas 1a to 1h corresponds to the feed amount for one time by the front-rear drive motor 12c.
  • the controller 13b drives the right and left drive motor 14a to move the print unit 20 to the right, while discharging the UV ink for one pass from the printer head 22, and also irradiates the right ultraviolet ray.
  • Control is performed so that 50% intensity ultraviolet rays are emitted from the device 23R and 100% intensity ultraviolet rays are emitted from the left ultraviolet ray irradiation device 23L.
  • each of the printing regions 1d to 1g is irradiated with 50% intensity ultraviolet light from the right ultraviolet irradiation device 23R, and then one pass of UV ink ejected from the printer head 22 is attached.
  • the left ultraviolet ray irradiation device 23L emits ultraviolet rays having an intensity of 100%.
  • one pass of UV ink is attached to the print region 1d, two passes to the print region 1e, three passes to the print region 1f, and four passes to the print region 1g (hereinafter referred to as “1”). This is called the “pass”.
  • FIG. 6A shows a cross-sectional view immediately after the UV ink 22a adheres to the printing region 1d in the first pass
  • FIG. 6B shows the UV ink 22a smoothed when the first pass is completed.
  • Cross-sectional views in a state of being converted into UV ink 22b are shown.
  • the UV ink 22a is deposited in the form of droplets on the printing region 1d, it is cured by, for example, about 50% by being irradiated with 100% intensity ultraviolet light from the left ultraviolet irradiation device 23L. The Thus, since the UV ink 22a is not completely cured, it can be smoothed until the first pass is completed.
  • the front / rear drive motor 12c is driven to feed the printing sheet 1 forward by, for example, the front / rear width of the printing area 1a (FIG. 4B). )reference).
  • the controller 13b performs control to irradiate 100% intensity ultraviolet light from the right ultraviolet irradiation device 23R and 50% intensity ultraviolet light from the left ultraviolet irradiation device 23L, and then moves the printing unit 20 to the left.
  • One pass of UV ink is ejected from the printer head 22.
  • each of the printing regions 1c to 1f is irradiated with UV light of 50% intensity from the left UV light irradiation device 23L, and then the UV ink for one pass ejected from the printer head 22 is attached. Then, 100% intensity ultraviolet light is irradiated from the right ultraviolet irradiation device 23R. Then, one pass of UV ink is attached to the print region 1c, two passes to the print region 1d, three passes to the print region 1e, and four passes to the print region 1f (hereinafter referred to as “2”). This is called the “pass”.
  • FIG. 6C shows a cross-sectional view of the printing region 1d when the second pass is completed.
  • the printing area 1d in the second pass will be described with reference to FIG. 6C.
  • the UV ink 22b smoothed in the first pass is irradiated with 50% intensity UV light from the left UV irradiation device 23L.
  • it is cured to such an extent that it does not bleed even when in contact with other UV ink (for example, about 75%).
  • the UV ink 22c discharged from the printer head 22 is attached, so that it is possible to prevent the UV ink 22b and the UV ink 22c from oozing.
  • the UV ink 22c is cured by, for example, about 50% by irradiating UV light having a strength of 100% from the right UV irradiation device 23R, and the second pass is completed for the reason described in the first pass. Can be smoothed.
  • the print sheet 1 is sent forward in the same manner as in the second pass (see FIG. 5A).
  • the controller 13b controls the right ultraviolet irradiation device 23R to emit 50% ultraviolet light from the left ultraviolet irradiation device 23L, and then moves the printing unit 20 to the right.
  • UV ink for one pass is ejected from the printer head 22.
  • UV ink for one pass is attached to the print region 1b, two passes to the print region 1c, three passes to the print region 1d, and four passes to the print region 1e. 3rd pass ").
  • the printing area 1d in the third pass will be described with reference to FIG. 6D.
  • the UV ink 22c smoothed in the second pass is irradiated with ultraviolet rays having an intensity of 50% from the right ultraviolet irradiation device 23R. It is cured to such an extent that it does not bleed with other UV inks (for example, about 75%). Since the UV ink 22d ejected from the printer head 22 is adhered after being cured in this way, it is possible to prevent the UV ink 22d and the UV ink 22c (and the UV ink 22b) from oozing. Thereafter, the UV ink 22d is cured by, for example, about 50% by being irradiated with 100% intensity UV light from the left UV irradiation device 23L, and can be smoothed until the third pass is completed.
  • the print sheet 1 is fed forward in the same manner as in the second pass (see FIG. 5B).
  • the controller 13b performs control to irradiate 100% intensity ultraviolet light from the right ultraviolet irradiation device 23R and 50% intensity ultraviolet light from the left ultraviolet irradiation device 23L, and then moves the printing unit 20 to the left.
  • UV ink for one pass is ejected from the printer head 22.
  • UV ink for one pass is attached to the print region 1a, two passes to the print region 1b, three passes to the print region 1c, and four passes to the print region 1d. 4th pass "). Note that printing for the print area 1d is completed by executing the fourth pass.
  • the printing area 1d in the fourth pass will be described with reference to FIG. 6E.
  • the UV ink 22d smoothed in the third pass is irradiated with 50% intensity ultraviolet light from the left ultraviolet irradiation device 23L. It is cured to such an extent that it does not bleed with other UV inks (for example, about 75%). Since the UV ink 22e discharged from the printer head 22 is attached after being cured in this way, it is possible to prevent the UV ink 22e and the UV ink 22d (the UV ink 22b and the UV ink 22c) from bleeding. Thereafter, the UV ink 22e is cured by, for example, about 50% by being irradiated with 100% intensity ultraviolet light from the right ultraviolet irradiation device 23R, and can be smoothed until the fourth pass is completed.
  • the strength is controlled independently. Therefore, the UV ink attached to the printing sheet 1 can be smoothed over time by irradiating the UV light for the first time and curing the UV ink by, for example, about 50%.
  • the UV ink is irradiated with, for example, an ultraviolet ray having an intensity lower than that of the first time, and is cured by, for example, about 75%, so that it can be in contact with other UV inks. It can be set as the hardening state which does not ooze.
  • the UV ink in the current pass it is possible to overlap the UV ink in the current pass with the UV ink that has been adhered to the print sheet 1 in the previous pass and has been smoothed and cured to the extent that it does not ooze.
  • the UV ink can be cured in a sufficiently smoothed state while suppressing the occurrence of bleeding as a whole. Therefore, when the printed matter obtained in this way is compared with the desired printed matter, for example, there is no difference in appearance such as color shade, and as a result, a high-quality printed matter can be obtained.
  • ultraviolet light having an intensity of 50% is emitted from the right ultraviolet irradiation device 23R and 100% from the left ultraviolet irradiation device 23L.
  • An example of the surface of the print sheet 1 when printing is performed by irradiating ultraviolet rays having an intensity of 100% from the right ultraviolet irradiation device 23R and 50% from the left ultraviolet irradiation device 23L when moving the left 20 Show.
  • FIG. 7C shows a case where, for example, our UV ink is used as the UV ink, 3M controllac 180-10 is used as the printing sheet 1, and UJV-160 our company is used as the ink jet printer 10, respectively.
  • the printed pattern is printed with a resolution of 600 dpi and under 4-pass printing conditions, and the print result is shown.
  • the thing of the structure used as the maximum illumination intensity of 750 mW / cm ⁇ 2 > when the supply current value is 0.5A is used.
  • FIG. 7A shows a case where the intensity of ultraviolet light is controlled to be 0% or 100% depending on the moving direction of the printing unit 20.
  • FIG. Shows the case where the intensity of the ultraviolet light is controlled to be 30% or 100%
  • FIG. 7D shows the case where the intensity of the ultraviolet light is controlled to be 80% or 100%.
  • FIG. 7 has a control for setting the intensity of ultraviolet rays irradiated from the ultraviolet irradiation device on the downstream side in the moving direction to 100% when the printing unit 20 is moved left and right.
  • FIG. 8 shows a result in a case where control is performed to set the intensity of ultraviolet rays irradiated from the ultraviolet irradiation device on the upstream side in the movement direction to 100%.
  • FIG. 8A shows the result when the intensity of the ultraviolet light is controlled to be 100% or 0%
  • FIG. 8B shows the result of controlling the intensity of the ultraviolet light to be 100% or 50%. The results are shown respectively.
  • the portion where the shading boundary is clearly separated shows a state where the ink is not smoothed due to the repelling of the UV inks on the other hand, while no bleeding occurs.
  • the portion where the light / dark boundary is blurred indicates a state in which the UV inks are relatively blurred.
  • control is performed so that the intensity of the ultraviolet rays irradiated from the ultraviolet irradiation device located on the upstream side is 50% with respect to the moving direction of the printing unit 20, and the ultraviolet irradiation located on the downstream side is performed.
  • the intensity control of the ultraviolet rays for the right ultraviolet irradiation device 23R and the left ultraviolet irradiation device 23L is not limited to the above-described control, but for example, the material of the printing sheet 1, the component characteristics of the UV ink, and the specifications of the UVLED module. Accordingly, intensity control may be performed so that an optimum result is obtained.
  • the four-pass printing method has been described as an example, but the present invention is not limited to this printing method.
  • the present invention is not limited to this printing method.
  • the configuration example is shown in which the present invention is applied to the ink jet printer 10 of the type in which the printing unit 20 is reciprocated left and right, and printing is performed while the print sheet 1 is fed forward. It can be applied to other inkjet printers.
  • the present invention is also applied to a so-called flat bed type ink jet printer that places and fixes a printing medium on a flat bed, moves the printing unit back and forth in the left-right direction, and performs printing while feeding in the front-rear direction.
  • the invention can be applied.
  • Print sheet (print medium) 10 Inkjet printer 12a Platen (medium support means) 13b Controller (strength control means) 15b Guide rail 20 Printing unit (head unit) 21 Carriage 22 Printer head 23R Right UV irradiation device (UV irradiation means) 23L Left UV irradiation device (UV irradiation means)

Landscapes

  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • Ink Jet (AREA)
PCT/JP2010/000047 2009-01-15 2010-01-06 インクジェットプリンタおよびそれを用いた印刷方法 WO2010082462A1 (ja)

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KR1020117006784A KR101271653B1 (ko) 2009-01-15 2010-01-06 잉크젯 프린터 및 그것을 이용한 인쇄방법
EP10731133.4A EP2325011B1 (de) 2009-01-15 2010-01-06 Tintenstrahldrucker und das von diesem benutzte druckverfahren
CN2010800028064A CN102171042B (zh) 2009-01-15 2010-01-06 喷墨打印机以及采用该喷墨打印机的打印方法
US13/075,192 US8662655B2 (en) 2009-01-15 2011-03-30 Inkjet printer and method for printing

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JP2009006541A JP5095640B2 (ja) 2009-01-15 2009-01-15 インクジェットプリンタおよびそれを用いた印刷方法
JP2009-006541 2009-01-15

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WO (1) WO2010082462A1 (de)

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JP2010162754A (ja) 2010-07-29
US20110221818A1 (en) 2011-09-15
CN102171042B (zh) 2013-09-18
KR20110058845A (ko) 2011-06-01
EP2325011A4 (de) 2014-01-29
KR101271653B1 (ko) 2013-06-17
EP2325011B1 (de) 2017-03-01
CN102171042A (zh) 2011-08-31
EP2325011A1 (de) 2011-05-25
JP5095640B2 (ja) 2012-12-12
US8662655B2 (en) 2014-03-04

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